Temperature-dependent nonlinear behaviour of thin rectangular plates exposed to through-depth thermal gradients
A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation th...
Ausführliche Beschreibung
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| Autor*in: |
Khazaeinejad, P. [verfasserIn] |
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| Format: |
E-Artikel |
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| Sprache: |
Englisch |
| Erschienen: |
2015transfer abstract |
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| Schlagwörter: |
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| Umfang: |
13 |
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| Übergeordnetes Werk: |
Enthalten in: Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash - Davey, Benjamin ELSEVIER, 2022, an international journal, Amsterdam |
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| Übergeordnetes Werk: |
volume:132 ; year:2015 ; day:15 ; month:11 ; pages:652-664 ; extent:13 |
| Links: |
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| DOI / URN: |
10.1016/j.compstruct.2015.05.051 |
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| Katalog-ID: |
ELV018386695 |
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| 520 | |a A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. | ||
| 520 | |a A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. | ||
| 650 | 7 | |a Structures in fire |2 Elsevier | |
| 650 | 7 | |a Temperature-dependent material properties |2 Elsevier | |
| 650 | 7 | |a Non-uniform thermal gradient |2 Elsevier | |
| 650 | 7 | |a Rectangular plate |2 Elsevier | |
| 650 | 7 | |a Geometric nonlinearity |2 Elsevier | |
| 650 | 7 | |a Compressive ring |2 Elsevier | |
| 700 | 1 | |a Usmani, A.S. |4 oth | |
| 700 | 1 | |a Laghrouche, O. |4 oth | |
| 773 | 0 | 8 | |i Enthalten in |n Elsevier |a Davey, Benjamin ELSEVIER |t Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash |d 2022 |d an international journal |g Amsterdam |w (DE-627)ELV007891687 |
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10.1016/j.compstruct.2015.05.051 doi GBVA2015008000010.pica (DE-627)ELV018386695 (ELSEVIER)S0263-8223(15)00425-0 DE-627 ger DE-627 rakwb eng 670 670 DE-600 690 VZ 50.17 bkl 55.80 bkl 44.80 bkl Khazaeinejad, P. verfasserin aut Temperature-dependent nonlinear behaviour of thin rectangular plates exposed to through-depth thermal gradients 2015transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. Structures in fire Elsevier Temperature-dependent material properties Elsevier Non-uniform thermal gradient Elsevier Rectangular plate Elsevier Geometric nonlinearity Elsevier Compressive ring Elsevier Usmani, A.S. oth Laghrouche, O. oth Enthalten in Elsevier Davey, Benjamin ELSEVIER Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash 2022 an international journal Amsterdam (DE-627)ELV007891687 volume:132 year:2015 day:15 month:11 pages:652-664 extent:13 https://doi.org/10.1016/j.compstruct.2015.05.051 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.17 Sicherheitstechnik VZ 55.80 Verkehrswesen Transportwesen: Allgemeines VZ 44.80 Unfallmedizin Notfallmedizin VZ AR 132 2015 15 1115 652-664 13 045F 670 |
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10.1016/j.compstruct.2015.05.051 doi GBVA2015008000010.pica (DE-627)ELV018386695 (ELSEVIER)S0263-8223(15)00425-0 DE-627 ger DE-627 rakwb eng 670 670 DE-600 690 VZ 50.17 bkl 55.80 bkl 44.80 bkl Khazaeinejad, P. verfasserin aut Temperature-dependent nonlinear behaviour of thin rectangular plates exposed to through-depth thermal gradients 2015transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. Structures in fire Elsevier Temperature-dependent material properties Elsevier Non-uniform thermal gradient Elsevier Rectangular plate Elsevier Geometric nonlinearity Elsevier Compressive ring Elsevier Usmani, A.S. oth Laghrouche, O. oth Enthalten in Elsevier Davey, Benjamin ELSEVIER Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash 2022 an international journal Amsterdam (DE-627)ELV007891687 volume:132 year:2015 day:15 month:11 pages:652-664 extent:13 https://doi.org/10.1016/j.compstruct.2015.05.051 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.17 Sicherheitstechnik VZ 55.80 Verkehrswesen Transportwesen: Allgemeines VZ 44.80 Unfallmedizin Notfallmedizin VZ AR 132 2015 15 1115 652-664 13 045F 670 |
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10.1016/j.compstruct.2015.05.051 doi GBVA2015008000010.pica (DE-627)ELV018386695 (ELSEVIER)S0263-8223(15)00425-0 DE-627 ger DE-627 rakwb eng 670 670 DE-600 690 VZ 50.17 bkl 55.80 bkl 44.80 bkl Khazaeinejad, P. verfasserin aut Temperature-dependent nonlinear behaviour of thin rectangular plates exposed to through-depth thermal gradients 2015transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. Structures in fire Elsevier Temperature-dependent material properties Elsevier Non-uniform thermal gradient Elsevier Rectangular plate Elsevier Geometric nonlinearity Elsevier Compressive ring Elsevier Usmani, A.S. oth Laghrouche, O. oth Enthalten in Elsevier Davey, Benjamin ELSEVIER Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash 2022 an international journal Amsterdam (DE-627)ELV007891687 volume:132 year:2015 day:15 month:11 pages:652-664 extent:13 https://doi.org/10.1016/j.compstruct.2015.05.051 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.17 Sicherheitstechnik VZ 55.80 Verkehrswesen Transportwesen: Allgemeines VZ 44.80 Unfallmedizin Notfallmedizin VZ AR 132 2015 15 1115 652-664 13 045F 670 |
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10.1016/j.compstruct.2015.05.051 doi GBVA2015008000010.pica (DE-627)ELV018386695 (ELSEVIER)S0263-8223(15)00425-0 DE-627 ger DE-627 rakwb eng 670 670 DE-600 690 VZ 50.17 bkl 55.80 bkl 44.80 bkl Khazaeinejad, P. verfasserin aut Temperature-dependent nonlinear behaviour of thin rectangular plates exposed to through-depth thermal gradients 2015transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. Structures in fire Elsevier Temperature-dependent material properties Elsevier Non-uniform thermal gradient Elsevier Rectangular plate Elsevier Geometric nonlinearity Elsevier Compressive ring Elsevier Usmani, A.S. oth Laghrouche, O. oth Enthalten in Elsevier Davey, Benjamin ELSEVIER Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash 2022 an international journal Amsterdam (DE-627)ELV007891687 volume:132 year:2015 day:15 month:11 pages:652-664 extent:13 https://doi.org/10.1016/j.compstruct.2015.05.051 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.17 Sicherheitstechnik VZ 55.80 Verkehrswesen Transportwesen: Allgemeines VZ 44.80 Unfallmedizin Notfallmedizin VZ AR 132 2015 15 1115 652-664 13 045F 670 |
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10.1016/j.compstruct.2015.05.051 doi GBVA2015008000010.pica (DE-627)ELV018386695 (ELSEVIER)S0263-8223(15)00425-0 DE-627 ger DE-627 rakwb eng 670 670 DE-600 690 VZ 50.17 bkl 55.80 bkl 44.80 bkl Khazaeinejad, P. verfasserin aut Temperature-dependent nonlinear behaviour of thin rectangular plates exposed to through-depth thermal gradients 2015transfer abstract 13 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. Structures in fire Elsevier Temperature-dependent material properties Elsevier Non-uniform thermal gradient Elsevier Rectangular plate Elsevier Geometric nonlinearity Elsevier Compressive ring Elsevier Usmani, A.S. oth Laghrouche, O. oth Enthalten in Elsevier Davey, Benjamin ELSEVIER Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash 2022 an international journal Amsterdam (DE-627)ELV007891687 volume:132 year:2015 day:15 month:11 pages:652-664 extent:13 https://doi.org/10.1016/j.compstruct.2015.05.051 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U 50.17 Sicherheitstechnik VZ 55.80 Verkehrswesen Transportwesen: Allgemeines VZ 44.80 Unfallmedizin Notfallmedizin VZ AR 132 2015 15 1115 652-664 13 045F 670 |
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Enthalten in Versatile, but not focused, traffic offenders are more likely to be at fault for a fatal crash Amsterdam volume:132 year:2015 day:15 month:11 pages:652-664 extent:13 |
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Temperature-dependent nonlinear behaviour of thin rectangular plates exposed to through-depth thermal gradients |
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A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. |
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A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. |
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A theoretical model is developed for geometrically and materially nonlinear analysis of thin rectangular plates subjected to transverse mechanical loads and exposed to non-uniform thermal gradients over their depth. The geometrical nonlinearity is based on the von Kármán type of large deformation theory. The material nonlinearity arises from degradable material behaviour at elevated temperatures. The temperature distribution is obtained numerically for two common types of fire exposure conditions that could occur in a fire compartment including: an exponential “short hot” fire leading to a high temperature over a relatively short duration; and an exponential “long cool” fire of lower temperature over a longer duration. Two types of support conditions are considered for the plate based on assuming that in-plane displacements are either restrained or unrestrained against lateral translation. Several numerical examples including two examples for functionally graded plates are presented to assess the accuracy and performance of the proposed method. The evolution of the true shape of the compressive zone supporting tensile membrane action in laterally unrestrained plates under large displacements is graphically illustrated for the two non-uniform thermal gradients. It is shown that the effect of the short hot fire on the plate behaviour is more pronounced. |
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